Michael L. Bennett scite author profile

The site-specific insertion of an unnatural amino acid into proteins in vivo via nonsense suppression has resulted in major advances in recent years. The ability to incorporate two different unnatural amino acids in vivo would greatly increase the scope and impact of unnatural amino acid mutagenesis. Here, we show the concomitant suppression of an amber and an ochre codon in a single mRNA in mammalian cells by importing a mixture of aminoacylated amber and ochre suppressor tRNAs. This result provides a possible approach to site-specific insertion of two different unnatural amino acids into any protein of interest in mammalian cells. To our knowledge, this result also represents the only demonstration of concomitant suppression of two different termination codons in a single gene in vivo.

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E1A and E1B proteins inhibit inflammation induced by adenovirus

Schaack

Bennett

Colbert

et al. 2004

Proc. Natl. Acad. Sci. U.S.A.

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Replication-defective human adenovirus (Ad) group C transducing vectors, most of which have the E1A, E1B, and E3 genes deleted, are highly inflammatory despite the fact that the parental viruses typically cause subclinical or mild infections. To investigate this paradox, the roles that the E1A, E1B, and E3 genes play in inflammation were tested by using replication-incompetent viruses carrying a deletion of the preterminal protein gene. The viruses were injected into BALB͞c mouse ears, and edema was monitored as a sensitive surrogate marker of inflammation. A virus deleted for the E1A 289R (transcription activating) protein was noninflammatory, and inhibited edema induced by empty virus particles. The E1A 243R and E1B 55-kDa (p53 binding) proteins play the most important roles in inhibition of inflammation by the noninflammatory virus. The E1B 19-kDa antiapoptotic protein inhibited edema when both the E1A 243R and E1B 55-kDa proteins were expressed but strongly induced edema when only one was expressed. E3 proteins had their greatest effect on the inhibition of edema induced by the E1A 289R protein. The results support a model in which inflammation is countered through a mechanism that involves complex genetic interactions between Ad early region proteins and offer promise for the design and construction of noninflammatory Ad gene therapy vectors that are relatively easy to grow and purify.

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Distance and Affinity Dependence of Triplex-Induced Recombination

et al. 2005

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Triplex-forming oligonucleotides (TFOs) have the potential to serve as gene therapeutic agents on the basis of their ability to mediate site-specific genome modification via induced recombination. However, high-affinity triplex formation is limited to polypurine/polypyrimidine sites in duplex DNA. Because of this sequence restriction, careful analysis is needed to identify suitable TFO target sites within or near genes of interest. We report here an examination of two key parameters which influence the efficiency of TFO-induced recombination: (1) binding affinity of the TFO for the target site and (2) the distance between the target site and the mutation to be corrected. To test the influence of binding affinity, we compared induced recombination in human cell-free extracts by a series of G-rich oligonucleotides with an identical base composition and an increasing number of mismatches in the third strand binding code. As the number of mismatches increased and, therefore, binding affinity decreased, induced recombination frequency also dropped. There was an apparent threshold at an equilibrium dissociation constant (K(d)) of 1 x 10(-)(7) M. In addition, TFO chemical modification with N,N-diethylethylenediamine (DEED) internucleoside linkages to confer improved binding was found to yield increased levels of induced recombination. To test the ability of triplex formation to induce recombination at a distance, episomal targets with informative reporter genes were constructed to contain polypurine TFO target sites at varying distances from the mutations to be corrected. TFO-induced recombination in mammalian cells between a plasmid vector and a donor oligonucleotide was detected at distances ranging from 24 to 750 bp. Together, these results indicate that TFO-induced recombination requires high-affinity binding but can affect sites hundreds of base pairs away from the position of triplex formation.

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